GAS ANALYZER
A gas analyzer includes: a gas measuring portion which performs a measurement on a gas; a case which houses the gas measuring portion; a liquid separator which includes a reservoir for storing a liquid component separated from the gas; a holder portion which holds the liquid separator; and a rotation mechanism which mounts the holder portion to the case.
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The present invention relates to a sampling gas analyzer for analyzing a gas, or particularly effectively, a gas obtained from a living body.
A sampling respiratory gas analyzer is configured so that a gas to be measured is sucked into the interior of the analyzer, and then subjected to a measurement by a sensor in the analyzer. In such an analyzer, there is a fear of an adverse effect that water vapor contained in the gas to be measured condenses, and, when liquid is sucked into the interior of the analyzer, rust or the like occurs.
In order to solve the problem, a mechanism has been proposed in which liquid to be used in a respiratory gas analyzer is separated by separating the liquid by means of surface tension and capillary action, and then guiding the liquid to a cup (see U.S. Pat. No. 4,713,095). According to the apparatus, liquid which is formed by condensing water vapor contained in the gas to be measured can be separated. However, the apparatus has a problem in that, when the cup of the liquid separator does not exist in the direction of gravitational force of a condensing portion in order to receive the liquid produced by condensation, the liquid enters the interior of the apparatus.
In order to solve the problem, furthermore liquid separators incorporating a mechanism which uses a polymer absorbent, and which, when liquid enters the mechanism, performs a sealing function. Each of such separators is characterized in that the use of a polymer absorbent can prevent liquid from entering the interior of the separator (see U.S. Pat. No. 4,924,860 and U.S. Pat. No. 6,923,847). However, each of the liquid separators remains to have a problem in that the function of separating liquid does not normally function unless the cup of the liquid separator exists in the direction of gravitational force of a condensing portion.
SUMMARYIt is therefore an object of the invention to provide a gas analyzer in which, both when the analyzer is placed in the usual state (for example, the horizontal state) and when the analyzer is placed in a state perpendicular to the usual state (for example, the vertical state), a liquid separator appropriately functions so that an adverse effect on the gas analysis can be prevented from occurring.
In order to achieve the object, according to the invention, there is provided a gas analyzer comprising: a gas measuring portion which performs a measurement on a gas; a case which houses the gas measuring portion; a liquid separator which includes a reservoir for storing a liquid component separated from the gas; a holder portion which holds the liquid separator; and a rotation mechanism which mounts the holder portion to the case.
The gas analyzer may further include: a locking unit which locks the holder portion in a case where the holder portion is rotated to a position where the reservoir is in a lowermost portion in a direction of gravitational force in the liquid separator.
The gas analyzer may further include: a sensor which detects an attitude of the holder portion with respect to a direction of gravitational force.
The gas analyzer may further include: an alarm unit which generates an alarm in a case where the attitude of the holder portion which is detected by the sensor is not in a predetermined attitude in which the reservoir is positioned in the lowermost portion in the direction of gravitational force in the liquid separator.
The gas analyzer may further include: a transmitting unit which transmits a detection signal in a case where the attitude of the holder portion which is detected by the sensor is not in a predetermined attitude in which the reservoir is positioned in the lowermost portion in the direction of gravitational force in the liquid separator.
In order to achieve the object, according to the invention, there is also provided a gas analyzer comprising: a gas measuring portion which performs a measurement on a gas; a case which houses the gas measuring portion; a holder portion that holds a liquid separator which includes a reservoir for storing a liquid component separated from the gas, and which guides the gas from which the liquid component is separated, to the gas measuring portion; and a holding unit which holds the liquid separator in one of attitudes which are different from one another in steps of 90 degrees.
The holding unit may include a main flow path through which the gas is flown from the liquid separator to the gas measuring portion, and sub flow paths for applying a sucking operation on the reservoir.
In a face of the holder portion which is opposed to the liquid separator, a flow path port of the main flow path, and sub flow path ports of the sub flow paths may be formed, the sub flow path ports being symmetrically placed about the flow path port of the main flow path.
The gas analyzer may further include: a sensor which detects an attitude of the liquid separator held by the holder portion with respect to a direction of gravitational force.
The gas analyzer may further include: an alarm unit which generates an alarm in a case where the attitude of the liquid separator detected by the sensor is not in a predetermined attitude in which the reservoir is positioned in the lowermost portion in the direction of gravitational force in the liquid separator.
The gas analyzer may further include: a transmitting unit which transmits a detection signal in a case where the attitude of the liquid separator which is detected by the sensor is not in a predetermined attitude in which the reservoir is positioned in the lowermost portion in the direction of gravitational force in the liquid separator.
Hereinafter, embodiments of the gas analyzer of the invention will be described with reference to the accompanying drawings. In the figures, the identical components are denoted by the same reference numerals, and duplicated description will be omitted. In a gas analyzer of a first embodiment, as shown in
A water trap 3 which is a liquid separator having a rectangular parallelepiped shape as shown in
The suction port 33a communicates with an inner tube 34a which extends into an upper front chamber 34 in the reservoir 31 disposed inside the water trap 3. A gas is discharged from an opening of the inner tube 34a toward the reservoir 31. In the upper front chamber 34 of the reservoir 31, an opening 35a of a guiding tube 35 for guiding out the sample gas is opened in a sidewall which is in the vicinity of an uppermost portion. In the upper front chamber 34, a hydrophobic filter 34b is disposed between the opening 35a of the guiding tube 35 and the inner tube 34a. A liquid component contained in a gas which reaches from the inner tube 34a into the reservoir 31 is separated by the hydrophobic filter 34b, so that the gas from which the liquid component is separated is guided out from the guiding tube 35.
An upper rear chamber 36 having a slender lidded cylindrical shape is disposed at a position adjacent to the upper front chamber 34 of the reservoir 31. In the upper rear chamber 36, an opening 37a of a vacuum tube 37 for sucking a gas from the reservoir 31 is opened in a sidewall which is in the vicinity of an uppermost portion. A hydrophobic filter 36b is disposed between the opening 37a of the vacuum tube 37 and the reservoir 31. A liquid component contained in a gas which is sucked from the reservoir 31 into the upper rear chamber 36 is separated by the hydrophobic filter 36b, and then the gas is sucked into the opening 37a of the vacuum tube 37.
As shown in
In the thus-configured water trap 3, a respiratory gas of the patient reaches the suction pipe 33 through the sampling tube, and then arrives in an upper portion of the reservoir 31 through the inner tube 34a. In the portion, a liquid component which is liquefied by condensation or the like is stored in the bottom side of the reservoir 31. As described above, the hydrophobic filters 34b, 36b separate liquid, and cause the liquid to be confined in the reservoir 31.
In the case 1, as shown in
In the frame 6, double threaded groove holes 11, 11 are formed in an arcuate shape which constitutes a part of the circumference of a circle. The lengths of the groove holes 11, 11 are extended in accordance with the rotation angle of the holder portion 2. In the embodiment, the groove holes have a length which enables the holder portion 2 to be rotated by 90 degrees.
A disk-like plate 9 is interposed between the frame 6 and the holder portion 2. In the bottom plate of the holder portion 2, holes through which screws 12 are inserted are formed in a pair of edges which are connected to each other by a diagonal of the rectangle conforming to the shape of the bottom plate, respectively. Holes 14 corresponding to the holes 13 of the holder portion 2 are formed in an area of the plate 9 on which the holder portion 2 is to be placed. The screw portions of the screws 12 are passed through the holes 13 of the holder portion 2 and the holes 14 of the plate 9 to reach the groove holes 11 of the frame 6.
Studs 15 are disposed to extend in the direction of the face of the frame 6 opposed to the screws 12 toward the groove holes 11. In each of the studs 15, a head portion 16 has a disk-like shape, the diameter of the head portion is larger than the widths of the groove holes 11, a leg portion 17 is projected from the middle part of the rear face of the disk-like head portion 16, and the diameter of the leg portion 17 is slightly smaller than the widths of the groove holes 11. Therefore, the studs 15 can slide along the groove holes 11 in a state where the leg portions 17 are inserted through the groove holes 11, respectively.
In each of the studs 15, moreover, a threaded groove 17a which is to be screwed with the corresponding one of the screws 12 is formed so as to be directed from the end face toward the head portion 16. When the screws 12 are inserted so as to pass through the holes 13 of the holder portion 2 and the holes 14 of the plate 9, the studs 15 are inserted toward the groove holes 11 in the direction of the face of the frame 6 opposed to the screws 12, and the screws 12 are screwed with the threaded grooves 17a formed in the leg portions 17 of the studs, respectively, the holder portion 2 is fixed to the plate 9, and the head portions 16 of the studs 15 butt against one face of the frame 6 in a state where the leg portions 17 of the studs 15 are fitted into the groove holes 11. In this way, a rotation mechanism is configured by the frame 6 having the groove holes 11 functioning as a sliding groove, and the studs 15 functioning as sliding members which are fixed to the holder portion 2.
In the back plate of the holder portion 2, as shown in
An intake tube 45 and a suction tube 46 which are in the case 1, and which are shown in
As shown in
A gas which is taken in through the intake tube 45 is sent to the gas measuring portion 22 through the electromagnetic valve 21. The gas measuring portion 22 measures the concentration, respiratory volume, and the like of carbon dioxide, oxygen, nitrogen monoxide, a volatile anesthetic, etc., by means of related-art techniques. Information related to results of measurements is sent from the controlling portion 20 to a monitor device or the like which is not shown, to be displayed thereon. Alternatively, the information may be displayed on the gas analyzer.
A gas which is taken in through the suction tube 46, and that which is discharged from the gas measuring portion 22 are sucked by the pump 23 to be discharged. An appropriate resistor 25 is interposed between the suction tube 46 and the pump 23, thereby controlling the gas flow.
An attitude sensor 28 is applied to the plate 9, and the output of the attitude sensor 28 is sent to the controlling portion 20. An alarm generating unit 29 which is configured by a speaker and a driver is connected to the controlling portion 20. The attitude sensor 28 detects the attitude of the holder portion 2 with respect to the direction of gravitational force, and is referred to as a three-axis acceleration sensor or the like. The attitude sensor transmits a detection signal in the case where the holder portion 2 is not in a predetermined attitude in which the reservoir 31 is positioned in the lowermost portion in the direction of gravitational force in the held water trap 3. When the controlling portion 20 receives the detection signal from the attitude sensor 28, the controlling portion drives the alarm generating unit 29 to generate an alarm sound. Alternatively, the alarm generating unit 29 may generate light or output a character display in place of the sound generation. In the case where the holder portion is not in the predetermined attitude in which the reservoir 31 is positioned in the lowermost portion in the direction of gravitational force in the water trap 3, the alarm generating unit 29 may send the detection signal to the monitor device which is not shown, and the monitor device may generate the alarm sound.
In the thus-configured gas analyzer, a state where, as shown in
In the state of
In the state of
As shown in
In the above, the configuration using the rotation mechanism which can be rotated by 90 degrees has been exemplarily described. Alternatively, the distances from the rotation center to the two groove holes 11 may be made different from each other, the positions of the end portions of the groove holes may be made slightly different from each other, and the studs 15 may be made correspondent with the groove holes, thereby enabling rotation of 360 degrees. It is a matter of course that a configuration for rotation of 270 degrees or that for 180 degrees is enabled. In this case, as described above, a configuration corresponding to the circular portions 11a, 11b having a diameter which is very slightly larger than the widths of the intermediate portions of the groove holes 11 is disposed at each rotation of 90 degrees, so that the holder portion can be locked at each rotation of 90 degrees.
Next, a gas analyzer of a second embodiment will be described. In the gas analyzer, as shown in
Four rectangular holes 53a to 53d are formed in the directions of line segments connecting the four sub flow path holes 52 while being centered at the main flow path hole 51. On the side of the rear face of the back plate of the holder portion 2, a main projection pipe 41A which corresponds to the main flow path hole 51 and the sub flow path holes 52, and which is as shown in
As shown in
The projection piece 40 has a configuration in which it is fitted into any one of the rectangular holes 53a to 53d of the holder portion 2. The main discharge pipe 39A is fitted into the main flow path hole 51, and the four sub discharge pipes 39B are fitted into the sub flow path holes 52. When the case 1 is in the state of
Contacts SWa to SWd which are pressed by insertion of the projection piece 40 to be closed are disposed on the bottom faces of the rectangular holes 53a to 53d of the holder portion 2, respectively. As shown in
The second attitude sensor 27 detects the attitude of the case 1 with respect to the direction of gravitational force, or detects in which one of the four states of
The case attitudes are indicated respectively by a to d in accordance with
In the thus-configured gas analyzer of the embodiment, when the attitude of the case 1 is any one of
In the case where the attitude of the case 1 is any one of
The embodiment is configured so as to correspond to a case where the case 1 is rotated by any one of 90 degrees, 180 degrees, and 270 degrees. Alternatively, the gas analyzer may be configured in the following manner. The configurations of the main flow path hole 51 and the sub flow path holes 52 are changed, and the water trap 3A is differently configured in accordance with the change, so that, when the water trap is rotated only by 90 degrees, or by 90 degrees and 270 degrees, the water trap 3A can be inserted and fitted into the holder portion 2 while the water trap 3A is set to the attitude (adequate attitude) in which the reservoir 31 in the water trap 3A is positioned in the lowermost portion in the direction of gravitational force. Also in the alternative, the gas analyzer can adequately operate.
According to an aspect of the invention, the analyzer includes the reservoir which stores the liquid component separated from the gas, and the holder portion which holds the liquid separator is mounted on the rotation mechanism. Therefore, the analyzer can operate in a state where the liquid separator functions properly.
According to an aspect of the invention, the analyzer includes the locking unit which locks the holding portion in the case where the holder portion is rotated to the position where the reservoir is in the lowermost portion in the direction of gravitational force in the held liquid separator. Therefore, the holder can be locked in the state where the liquid separator functions properly, and the adequate operation of the analyzer can be ensured.
According to an aspect of the invention, the analyzer includes the sensor which detects the attitude of the holder portion with respect to the direction of gravitational force. Therefore, it is possible to detect the attitude of the holder portion.
According to an aspect of the invention, the analyzer is configured so that, in the case where the holder portion detected by the sensor does not have a predetermined attitude in which the reservoir is positioned in the lowermost portion in the direction of gravitational force in the held liquid separator, an alarm is generated. When the holder portion is not in the state where the liquid separator functions properly, therefore, an alarm is generated, and it is possible to know an inadequate state.
According to an aspect of the invention, the analyzer includes the transmitting unit which, in the case where the attitude of the holder portion detected by the sensor is not in the predetermined one in which the reservoir is positioned in the lowermost portion in the direction of gravitational force in the held liquid separator, transmits the detection signal. Depending on the attitude of the holder portion, therefore, an appropriate device can receive the detection signal, and an alarm or the like can be output.
According to an aspect of the invention, the analyzer includes the holding unit in the holder portion that includes the reservoir for storing the liquid component separated from the gas, and that holds the liquid separator which guides the gas from which the liquid component is separated, to the gas measuring portion, and the holding unit holds the liquid separator in one of attitudes which are different from one another in steps of 90 degrees. Therefore, the analyzer can be caused to operate in the state where the liquid separator functions properly.
According to an aspect of the invention, the holding unit includes the main flow path through which the gas is flown from the liquid separator to the gas measuring portion, and the sub flow paths for applying a sucking operation on the reservoir. Therefore, the gas can be adequately guided from the liquid separator toward the gas measuring portion.
According to an aspect of the invention, in the face of the holder portion which is opposed to the liquid separator, the flow path port of the main flow path, and the sub flow path ports of the sub flow paths, the sub flow path ports being symmetrically placed about the flow path port of the main flow path, are formed. Therefore, the analyzer can be caused to operate in the state where the liquid separator functions properly.
According to an aspect of the invention, the analyzer includes the sensor which detects the attitude of the liquid separator held by the holder portion with respect to the direction of gravitational force. Therefore, it is possible to detect the attitude of the liquid separator.
According to an aspect of the invention, in the case where the attitude of the liquid separator is not in a predetermined one in which the reservoir is positioned in the lowermost portion in the direction of gravitational force in the liquid separator, an alarm is generated. When the analyzer is not in the state where the liquid separator functions properly, therefore, an alarm is generated, and it is possible to know an inadequate state.
According to an aspect of the invention, the analyzer includes the transmitting unit which, in the case where the attitude of the liquid separator detected by the sensor is not in the predetermined one in which the reservoir is positioned in the lowermost portion in the direction of gravitational force in the liquid separator, transmits the detection signal. Depending on the attitude of the liquid separator, therefore, an appropriate device can receive the detection signal, and an alarm or the like can be output.
Claims
1. A gas analyzer comprising:
- a gas measuring portion which performs a measurement on a gas;
- a case which houses the gas measuring portion;
- a liquid separator which includes a reservoir for storing a liquid component separated from the gas;
- a holder portion which holds the liquid separator; and
- a rotation mechanism which mounts the holder portion to the case.
2. The gas analyzer according to claim 1, wherein further comprising:
- a locking unit which locks the holder portion in a case where the holder portion is rotated to a position where the reservoir is in a lowermost portion in a direction of gravitational force in the liquid separator.
3. The gas analyzer according to claim 1, further comprising:
- a sensor which detects an attitude of the holder portion with respect to a direction of gravitational force.
4. The gas analyzer according to claim 3, further comprising:
- an alarm unit which generates an alarm in a case where the attitude of the holder portion which is detected by the sensor is not in a predetermined attitude in which the reservoir is positioned in the lowermost portion in the direction of gravitational force in the liquid separator.
5. The gas analyzer according to claim 3, further comprising:
- a transmitting unit which transmits a detection signal in a case where the attitude of the holder portion which is detected by the sensor is not in a predetermined attitude in which the reservoir is positioned in the lowermost portion in the direction of gravitational force in the liquid separator.
6. A gas analyzer comprising:
- a gas measuring portion which performs a measurement on a gas;
- a case which houses the gas measuring portion;
- a holder portion that holds a liquid separator which includes a reservoir for storing a liquid component separated from the gas, and which guides the gas from which the liquid component is separated, to the gas measuring portion; and
- a holding unit which holds the liquid separator in one of attitudes which are different from one another in steps of 90 degrees.
7. The gas analyzer according to claim 6, wherein the holding unit includes a main flow path through which the gas is flown from the liquid separator to the gas measuring portion, and sub flow paths for applying a sucking operation on the reservoir.
8. The gas analyzer according to claim 7, wherein, in a face of the holder portion which is opposed to the liquid separator, a flow path port of the main flow path, and sub flow path ports of the sub flow paths are formed, the sub flow path ports being symmetrically placed about the flow path port of the main flow path.
9. The gas analyzer according to claim 6, further comprising:
- a sensor which detects an attitude of the liquid separator held by the holder portion with respect to a direction of gravitational force.
10. The gas analyzer according to claim 9, further comprising:
- an alarm unit which generates an alarm in a case where the attitude of the liquid separator detected by the sensor is not in a predetermined attitude in which the reservoir is positioned in the lowermost portion in the direction of gravitational force in the liquid separator.
11. The gas analyzer according to claim 9, further comprising:
- a transmitting unit which transmits a detection signal in a case where the attitude of the liquid separator which is detected by the sensor is not in a predetermined attitude in which the reservoir is positioned in the lowermost portion in the direction of gravitational force in the liquid separator.
Type: Application
Filed: Jan 27, 2011
Publication Date: Jul 28, 2011
Patent Grant number: 8791827
Applicant: NIHON KOHDEN CORPORATION (Tokyo)
Inventors: Isao MATSUBARA (Tokyo), Yutaka UCHIYAMA (Tokyo)
Application Number: 13/015,163
International Classification: G01N 7/00 (20060101); G08B 17/10 (20060101);